DE2021487B2 - Atmospherically open expansion vessel for central heating - can be installed vertical or horizontal and has temporary plug connectors - Google Patents

Abstract

The design is intended to reduce the number of different types of expansion vessel which has to be stocked. The cylindrical vessel is fitted with connectors for flow and return safety pipes for both the upright or horizontal position. The pipes are linked through bypass heater pipes inside the vessel. The pipe in use is fitted with a thermostatic valve to control flow according to the water temperature in the vessel. Unused connectors and openings are sealed. The pipe configuration ensures that no excessive circulation of water is set up inside the vessel. This reduces oxygen absorption and corrosion.

Description

25th

The invention relates to an expansion tank for a Hot water heating system that is open to the atmosphere and to which a safety flow and A safety return line is connected, which is passed through a lower area of the Wasserraunies of the expansion vessel and a heating element forming circulation line are connected, in built in a valve that can be adjusted depending on the temperature of the water in the expansion tank is. wherein the heating element over substantially the entire cross-sectional area of the expansion vessel is arranged evenly distributed. according to patent 19 64 073.

The main patent avoids in an advantageous manner that that is located in the expansion tank Water forms a circulation in itself, whereby parts of the water continuously reach the surface, which there have not been before and each time they are re-enriched with oxygen. Due to the evenly distributed Arrangement of the heating element is the water space of the expansion tank in an area above the Divided heating element and an area below the heating element. That in the area above the The water in the heating element is prevented from sinking into the lower area by heating. This means that water containing oxygen cannot get into the heating system through the safety return line.

The most common expansion vessels in practice have a circular cylindrical jacket, whose length is greater than its diameter. At the two head ends, the mantle is through walls closed, which usually have a spherical shape on the outside. The expansion vessels formed in this way have the advantage that they can be installed horizontally or vertically. That is why they are also for both installation cases with connections for the safety flow and safety return lines provided, (see Rietschel / Raiß: Heiz- und Klimatechnik, 15th edition, Volume I, Springer-Verlag, Berlin 1968 p. 161).

Through the DT-Gbm 19 63 587 a circular cylindrical, upright arranged expansion vessel for a hot water heating system is known in which a float is provided that the water level up on an approximately the cross-section of the safety drain line covers corresponding edge fences. Per .swimmer is intended to prevent the water level from being in direct contact with the free atmosphere and the water in the expansion tank does not continuously take up oxygen from the air. Between before and An additional pipe connection is provided for the return flow, which penetrates the expansion tank near the bottom and along the diameter of the extension the vessel runs. The connecting pipe serves as a heating pipe and is also intended to reduce the uptake of oxygen. However, this expansion vessel is not suitable for a horizontal arrangement, because when it rises or falling water level in the expansion vessel changes the size of the water level and the Swimmers do not adapt to this change

The invention is based on the object of expansion vessels to achieve a type reduction of the type mentioned at the beginning.

The invention consists in that the expansion tank can be installed horizontally or vertically and both connections for the safety flow and the security rollover as well as each a circulation line is provided.

The invention advantageously achieves that not different expansion vessels have to be stored, what the use of the same much simplified. The extra effort for the one or the other installation case not used As can be proven by a simple heat calculation, there is no circulation pipe in any adverse relationship to the benefit, a unified Keep expansion tank available.

In the drawing is. as far as it is necessary to explain the invention. part of a hot water heating system schematically shown. It shows

A b b. I in a vertical longitudinal section an expansion vessel according to the invention together with his Line connections in a vertical arrangement and

A b b. 2 shows an expansion vessel according to the invention in a lying arrangement.

In the A b b. 1 denotes 1 the expansion tank a hot water heating system. This is arranged upright at the highest point of the heating installation. In it, the water level 2 should be kept at such a height that when heated of the water and the associated expansion of the same, an expansion of the water in the expansion vessel is made possible upwards. However, it must also be ensured that in the expansion tank 1 there is such a large water supply. that the hot water heating is not due to lack of water out of order. If there is not enough water, it can easily happen that the radiators at the highest level no longer have a cycle and thus stay cold.

To prevent damage from overflowing the expansion tank 1, is just below its top Wall 3 connected to the circumferential side wall 4 of the same an overflow line 5, which leads to a Sewerage or sewage treatment plant leads. A vent line 6 is also connected to the overflow line 5, through which the atmosphere has free access to the water level 2 in the expansion vessel. The safety feed line 7 is led through the upper wall 3 into the expansion vessel. The safety return

line 8 is through the lower wall 9 of the expansion tank in open connection with the same.

If the water content of the expansion tank does not freeze in winter, a circulation line is provided that heats the water content of the expansion tank. This circulation line is installed in such a way that it connects the safety flow line 7 and the safety hot return line 8 to one another. The circulation line labeled 10 is connected to the Sieherheiisvorlaufleitung 7 at II and is led tightly through the side wall 4 of the expansion vessel I into this. Inside the expansion vessel 1, the circulation line 10 / u of a heating loop is formed (in most cases it is sufficient if a straight pipe is passed through the expansion vessel I). At its end 12, the circulation line 10 is led out tightly through the side wall 4 of the expansion vessel 1 and is connected outside of the expansion vessel 1 to the safety return line 8 at II . Like the A b b. 1 shows, the introduction and the lead out of the circulation line 10 into and out of the expansion vessel 1 are arranged in the vicinity of the lower boundary, ie the wall 9.

In the expansion vessel 1 still another heating coil 14 is installed in addition to the lleizschlei- fe 10th It penetrates the two walls 3 and 9. The heating loop 14 can be connected like the heating loop 10 if the expansion tank I. like the A b b. 2 shows, is arranged lying down. In the horizontal arrangement of the expansion vessel 1, the overflow line 15 with vent line, the safety flow line 16 and the safety return line 17 are connected to the expansion vessel 1 in the same way as for the corresponding lines according to A b b. 1 is the case.

Both me the A b b. I as well as according to A b b. 2 is in the Circulalionsleitiing IO and 14 respectively in the Part of the same, which between the safety feed line 7 or 16 and the inlet 18 ih the expansion fallen, an adjustable valve 19 is built in, with whose help regulates the flow of water through the circulation line, i.e. the heating loop can. It should be mentioned here that the valve 19 also behind the exit of the heating loop from the A'is Expansion vessel built into the circulation line could be without its effect being changed.

It is particularly advantageous if the wall of the expansion vessel 1 has a wall inside it protruding heat sensor 20 is used. which acts on the adjustment mechanism of the valve 19 by the Heat sensor 20 is connected to valve 19 by adjusting members 2i.

These adjusting elements are expediently of electrical

of a kind. who are able to use the weak current impulses, div 'emits a heat sensor via an amplifier to a servomotor. who is blind with the versification mechanism of valve 19. These Things are not shown for the sake of simplicity.

To connect the lines shown in the figures and described above, the Walls of the expansion vessel oil opening c-n provided, on which usually Ciewindc sleeves sit. The respective standing heating loop. according to A b b. i. the heating loop 14 and according to A b b. 2 the heating loop 10. stay unused. No special opening is required in the expansion vessel for the installation of the heat sensor 20 I to be introduced. The connection for the safety flow and safety return lines is ideal for this purpose remaining free opening.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Expansion vessel for a worm water heating system, that is open to the atmosphere and one security advance and one Safety return line are connected, the through a through the lower area of the water space of the expansion vessel and a Heating element forming circulation line are connected, in which a depending on the temperature of the water in the expansion tank adjustable valve is installed, the heating element in the arranged distributed substantially over the entire cross-sectional area of the expansion vessel is, according to patent 19 64 073, characterized in that the expansion vessel (1) Can be installed horizontally or upright and, for both installation cases, both connections for the safety flow (7) and uie safety return line (8) as uueh each provided a circulation line (10, 14) are.